RU2203415C2 - Cutter-loader - Google Patents

Abstract

FIELD: mining industry, driving of mine workings and cleanout pits. SUBSTANCE: cutter-loader includes body with screws, reduction gears, feeder, electric motors and supporting skis with grippers positioned in symmetry. Body is made of two symmetric halves fitted with communication centers arranged in symmetry plane and on ends of body, communication centers are mounted for mutual turns of body in horizontal plane relative to communication center located in symmetry plane on side of rock burst. Screws are equipped on side of rock burst with ring with seats for setting cutting tools. EFFECT: expanded application field. 3 dwg

Description

 The invention relates to the mining industry and is intended for the mechanization of mining and mining operations.

 Driving combines are known, for example, with an executive body of the arrow-type type GPKS [I], which are intended only for mining, are not used for treatment excavation in longwalls in reverse or in wide faces. The relationship between the roadheader and the mechanized roof support and its placement under the roof support is complicated, there is no unification of the tunneling and treatment equipment.

 Known mechanized supports with shearers [2], which are used only for mining, but are not used for mining due to the inability to place the combine in the bottom of the mine, there is no unification of tunneling and mining equipment used in the plane of the coal seam.

 Combines of a uniform row are known with screws, motors, gearboxes, feed mechanisms, supporting skis with grips symmetrically located at the ends of the machine body [3] (prototype), but in this design the harvester cannot be used when mining in a narrow course (the length of the harvester is longer than the necessary width production, for example when cutting lava).

 The proposed mountain harvester is characterized in that the casing is made of two symmetrical halves, equipped with communication nodes located in the plane of symmetry and at its ends, located on the side of the block with the possibility of mutual rotation of both parts of the casing in a horizontal plane relative to the communication unit located in the plane of symmetry, and the screws equipped with a collar side with a ring with slots for installing cutters.

 This embodiment allows you to unify the combine, expand the scope of both the treatment excavation and mining.

 In FIG. 1 shows a mining machine with a treatment recess; in FIG. 2 - mining machine during sinking; in FIG. 3 - supporting skis and spheres (view AA, Fig. 1).

 A mountain harvester (Fig. 1) consists of an executive body consisting of two screws 1, 2 of the same diameter, mounted on the combine body of feed mechanisms 3, 4, electric motors 5, 6, block skis 7, 8 and downhill skis 9, 10.

 Combine housing units are located symmetrically. In the plane of symmetry from the side of the blockage, the casing is equipped with a hinge 11, which allows folding both halves of the combine casing parallel to each other in the horizontal plane.

 When folded (Fig. 2), the augers, feed mechanisms, electric motors are parallel and symmetrical with respect to the longitudinal axis B, the augers are oriented in this case perpendicular to the bottom of the face, and the combine is used for mining. The augers of the combine are equipped with cutters on both sides, for which they are equipped with a ring with slots for installing cutters on the obstructive side, which allow breaking the rock mass with the end parts of the screws during reciprocating movement of the combine along the face. The end nodes of the connection 13 fix the halves of the housing with lock joints, for example, in the form of a wedge or bolts.

 When using a mining machine for driving a mine work is as follows. The augers, having received rotational movement from electric motors, when jacking conveyor conveyors to the face (the harvester is located on the conveyor, for example angular), self-digging until the face chest contacts the rotary gear housings, then alternately move along and across the face using the feed mechanism of the combine and the rotary gear hydraulic cylinders , the walls of the excavation are smooth with a right angle to the base. In the process of moving the combine and removing the strip, for example at the roof, the screws move to the soil of the formation while moving along the face and so on until the end of the excavation of the entire strip over the entire area of the face, then the cycle repeats.

The combine is moved to the face by the jacks of the movement of the support sections, which perform the functions of temporary support and the mechanism of movement of the combine to the face. At the end of, for example, a conveyor drift in the development system with long columns along the reverse strike, the combine with the support sections is turned 90 ^° to hold the mounting chamber, the width of which is 1.5-2 times wider than the conveyor drift. The passage of the mounting chamber of increased width is also carried out by the same combine due to the addition of pans for the conveyor of the bottomhole part, for example, an angular conveyor, to the required width. After holding the mounting chamber, the conveyor pans of the lining section are turned 90 ^° , and the combine is laid out in the reverse direction for clearing the lava in the lava, for which the lock communication unit 13 is opened at the ends of the housing and the turn is carried out on the hinge 11 in the plane of symmetry. From the obstructed side of the screws, the ring 12 is removed, which prevents the unloading of the rock mass during the cleaning recess.

 Thus, the unification of downhole equipment was achieved both during mining in the reservoir, and for mining the reservoir. Installation and dismantling work are reduced at the junction of the two technologies, mine workings with temporary support in the form of mechanical support sections are provided, smooth walls (sides) of the mine are provided at right angles to the mine soil.

 The transition of the mining machine from the tunneling position to the sewage treatment is carried out due to the mutual rotation of both parts of the housing relative to the hinge located in the symmetry plane from the obstructed side. Support block skis maintain their previous position, which allows the combine to take the required position according to the turn of the combine half-shells due to spherical connections of 14 brackets with skis. Unfolding the harvester from the folded position after holding the mounting chamber is carried out by turning it initially to the passed part of the mine, and then turning the harvester with screws to the face of the lava.

 Folding and unfolding is carried out by the corresponding portable power cylinders relative to the sections of the lining and the side of the output.

 For the use of combines on powerful seams with increased clearance, when the elements of the combine body are located on a common frame with support skis, the procedure for folding back the halves of the combine body is simplified, as they occur on a common frame with subsequent reduction of the frame or extension by the length of the insert, the length of which is determined the width of two halves of the harvester body when folded.

 Thus, the equipment used during mining is also used for treatment excavation. Achieved unification of downhole equipment in the plane of the reservoir. Downhole treatment equipment was delivered by using this equipment during mining. The continuity of the reservoir mining process with the same downhole equipment is ensured. The metal consumption of downhole equipment is reduced.

Sources of information
1. Machines and equipment for coal mines. Handbook, Moscow: Nedra, 1987, p. 215, Fig. 2.6. Combine GPKS.

 2. Machines and equipment for coal mines. Directory. M .: Nedra, p. 56, Fig. 1.25, 1987. Treatment complex 2 of the Code of Criminal Procedure.

 3. Machines and equipment for coal mines. Directory. M .: Nedra, 1987, p. 123, Fig. 1.56. Harvester ECU 10.

Claims (1)

 A mountain harvester comprising a housing with symmetrically arranged screws, gearboxes, feed mechanisms, electric motors, support skis with grippers, characterized in that the housing is made of two symmetrical halves, equipped with communication nodes located in the plane of symmetry and at its ends, located on the side of the block with the possibility of mutual rotation of both parts of the housing in the horizontal plane relative to the communication unit located in the plane of symmetry, and the screws are provided with a ring with slots for installing Application incisors.

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